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参数资料
| 型号: | NCP3125CRAGEVB |
| 厂商: | ON Semiconductor |
| 文件页数: | 14/22页 |
| 文件大小: | 0K |
| 描述: | BOARD EVALUATION NCP3125 CERAMIC |
| 设计资源: | NCP3125 Schematic NCP3125CRAGEVB BOM |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 1,非隔离 |
| 输出电压: | 最低可调至 0.8V |
| 电流 - 输出: | 4A |
| 输入电压: | 4.5 ~ 13.2 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 350kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | NCP3125 |
| 其它名称: | NCP3125CRAGEVBOS |
��
�
�NCP3125�
�T� J� +� T� A� )� P� D� @� R� q� JA�
�ambient� temperature.� The� formula� for� calculating� the�
�junction� temperature� with� the� package� in� free� air� is:�
�(eq.� 35)�
�P� D� =� Power� dissipation� of� the� IC�
�R� q� JA� =� Thermal� resistance� junction� to� ambient� of�
�the� regulator� package�
�T� A� =� Ambient� temperature�
�T� J� =� Junction� temperature�
�As� with� any� power� design,� proper� laboratory� testing�
�should� be� performed� to� ensure� the� design� will� dissipate� the�
�required� power� under� worst� case� operating� conditions.�
�F� SW� =� Switching� frequency�
�F� ESR� =� Output� capacitor� ESR� zero� frequency�
�If� the� criteria� is� not� met,� the� compensation� network� may�
�not� provide� stability� and� the� output� power� stage� must� be�
�modified.�
�Figure� 23� shows� a� pseudo� Type� III� transconductance� error�
�amplifier.�
�ZIN�
�CF�
�Variables� considered� during� testing� should� include�
�maximum� ambient� temperature,� minimum� airflow,�
�IEA�
�R1�
�RF�
�maximum� input� voltage,� maximum� loading,� and� component�
�variations� (i.e.,� worst� case� MOSFET� R� DS(on)� ).�
�Compensation� Network�
�CC�
�ZFB�
�CP�
�Gm�
�R2�
�To� create� a� stable� power� supply,� the� compensation�
�network� around� the� transconductance� amplifier� must� be�
�used� in� conjunction� with� the� PWM� generator� and� the� power�
�stage.� Since� the� power� stage� design� criteria� is� set� by� the�
�RC�
�VREF�
�F� LC� +�
�3�
�3.102� kHz� +�
�application,� the� compensation� network� must� correct� the� over�
�all� system� response� to� ensure� stability.� The� output� inductor�
�and� capacitor� of� the� power� stage� form� a� double� pole� at� the�
�frequency� as� shown� in� Equation� 36:�
�1�
�2� p� L� OUT� C� OUT�
�(eq.� 36)�
�1�
�2� p� 5.6� m� H� 470� m� F�
�C� OUT� =� Output� capacitor�
�F� LC� =� Double� pole� inductor� and� capacitor�
�frequency�
�L� OUT� =� Output� inductor� value�
�The� ESR� of� the� output� capacitor� creates� a� “zero”� at� the�
�frequency� as� shown� in� Equation� 37:�
�Figure� 23.� Pseudo� Type� III� Transconductance� Error�
�Amplifier�
�The� compensation� network� consists� of� the� internal� OTA�
�and� the� impedance� networks� Z� IN� (R� 1� ,� R� 2� ,� R� F� ,� and� C� F� )� and�
�external� Z� FB� (R� C� ,� C� C� ,� and� C� P� ).� The� compensation� network�
�has� to� provide� a� closed� loop� transfer� function� with� the�
�highest� 0� dB� crossing� frequency� to� have� fast� response� and�
�the� highest� gain� in� DC� conditions� to� minimize� the� load�
�regulation� issues.� A� stable� control� loop� has� a� gain� crossing�
�with� ?� 20� dB/decade� slope� and� a� phase� margin� greater� than�
�45� °� .� Include� worst� ?� case� component� variations� when�
�determining� phase� margin.� To� start� the� design,� a� resistor�
�value� should� be� chosen� for� R� 2� from� which� all� other�
�components� can� be� chosen.� A� good� starting� value� is� 10� k� W� .�
�The� NCP3125� allows� the� output� of� the� DC� ?� DC� regulator�
�F� ESR� +�
�6.772� kHz� +�
�2� p�
�2� p�
�1�
�CO� ESR�
�1�
�0.050� m� W�
�3�
�C� OUT�
�470� m� F�
�(eq.� 37)�
�to� be� adjusted� down� to� 0.8� V� via� an� external� resistor� divider�
�network.� The� regulator� will� maintain� 0.8� V� at� the� feedback�
�pin.� Thus,� if� a� resistor� divider� circuit� was� placed� across� the�
�feedback� pin� to� V� OUT� ,� the� regulator� will� regulate� the� output�
�voltage� proportional� to� the� resistor� divider� network� in� order�
�F� SW�
�F� ESR� t�
�CO� ESR� =� Output� capacitor� ESR�
�C� OUT� =� Output� capacitor�
�F� LC� =� Output� capacitor� ESR� frequency�
�The� two� equations� above� define� the� bode� plot� that� the�
�power� stage� has� created� or� open� loop� response� of� the� system.�
�The� next� step� is� to� close� the� loop� by� considering� the� feedback�
�values.� The� closed� loop� crossover� frequency� should� be�
�greater� than� the� F� LC� and� less� than� 1/5� of� the� switching�
�frequency,� which� would� place� the� maximum� crossover�
�frequency� at� 70� kHz.� Further,� the� calculated� F� ESR� frequency�
�should� meet� the� following:�
�(eq.� 38)�
�5�
�to� maintain� 0.8� V� at� the� FB� pin.�
�V� OUT�
�R1�
�FB�
�R2�
�Figure� 24.� Feedback� Resistor� Divider�
�The� relationship� between� the� resistor� divider� network�
�above� and� the� output� voltage� is� shown� in� Equation� 39:�
�http://onsemi.com�
�14�
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| NCP3126ADR2G | 功能描述:直流/直流开关转换器 3A PWM Switching Buck Regulator RoHS:否 制造商:STMicroelectronics 最大输入电压:4.5 V 开关频率:1.5 MHz 输出电压:4.6 V 输出电流:250 mA 输出端数量:2 最大工作温度:+ 85 C 安装风格:SMD/SMT |
| NCP3126AGEVB | 功能描述:电源管理IC开发工具 NCP3126 EVB RoHS:否 制造商:Maxim Integrated 产品:Evaluation Kits 类型:Battery Management 工具用于评估:MAX17710GB 输入电压: 输出电压:1.8 V |
| NCP3126CRAGEVB | 功能描述:电源管理IC开发工具 NCP3126 CERAMIC EVB RoHS:否 制造商:Maxim Integrated 产品:Evaluation Kits 类型:Battery Management 工具用于评估:MAX17710GB 输入电压: 输出电压:1.8 V |
| NCP3127ADR2G | 功能描述:直流/直流开关转换器 2A PWM Switching Buck Regulator RoHS:否 制造商:STMicroelectronics 最大输入电压:4.5 V 开关频率:1.5 MHz 输出电压:4.6 V 输出电流:250 mA 输出端数量:2 最大工作温度:+ 85 C 安装风格:SMD/SMT |
| NCP3127AGEVB | 功能描述:电源管理IC开发工具 NCP3127 EVALUATION BOARD RoHS:否 制造商:Maxim Integrated 产品:Evaluation Kits 类型:Battery Management 工具用于评估:MAX17710GB 输入电压: 输出电压:1.8 V |
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